// Copyright (c) 2017, the Dart project authors.  Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.

/// @docImport 'package:analyzer/src/fasta/ast_builder.dart';
/// @docImport 'package:analyzer/src/fasta/error_converter.dart';
/// @docImport 'package:analyzer/src/diagnostic/diagnostic_code_values.dart';
/// @docImport 'package:analyzer/src/dart/scanner/translate_error_token.dart';
library _fe_analyzer_shared.messages.codes;

import 'dart:convert' show JsonEncoder, json;

import 'diagnostic_message.dart' show CfeDiagnosticMessage;

import '../scanner/token.dart' show Token;

import 'severity.dart' show CfeSeverity;

import '../util/relativize.dart' as util show isWindows, relativizeUri;

import 'conversions.dart' as conversions;

part 'codes_generated.dart';

const int noLength = 1;

class Code {
  final String name;

  /// Enumerated value that can be used to map this [Code] to a corresponding
  /// analyzer code.
  ///
  /// If this value is non-null, then manually maintained logic (such as
  /// that in [translateErrorToken], [AstBuilder.addProblem],
  /// [AstBuilder.handleRecoverableError], or
  /// [FastaErrorReporter.reportMessage]) can use it to translate to a
  /// corresponding analyzer error code.
  ///
  /// Note that error codes that require translation in this way are not truly
  /// shared (hence the name "pseudoSharedCode"). Truly shared error codes are
  /// mapped to corresponding analyzer error codes using [sharedCode].
  final PseudoSharedCode? pseudoSharedCode;

  final CfeSeverity severity;

  /// Enumerated value that can be used to map this [Code] to a corresponding
  /// analyzer code.
  ///
  /// If this value is non-null, then this error code is shared between the
  /// analyzer and the CFE. The index of this enum can be used to look up the
  /// corresponding analyzer error in the [sharedAnalyzerCodes] table.
  final SharedCode? sharedCode;

  const Code(
    this.name, {
    this.pseudoSharedCode,
    this.severity = CfeSeverity.error,
    this.sharedCode,
  });

  @override
  String toString() => name;
}

class Message {
  final Code code;

  final String problemMessage;

  final String? correctionMessage;

  final Map<String, dynamic> arguments;

  const Message(
    this.code, {
    this.correctionMessage,
    required this.problemMessage,
    this.arguments = const {},
  });

  LocatedMessage withLocation(Uri uri, int charOffset, int length) {
    return new LocatedMessage(uri, charOffset, length, this);
  }

  LocatedMessage withoutLocation() {
    return new LocatedMessage(null, -1, noLength, this);
  }

  @override
  String toString() {
    return "Message[$code, $problemMessage, $correctionMessage, $arguments]";
  }
}

class MessageCode extends Code implements Message {
  @override
  final String problemMessage;

  @override
  final String? correctionMessage;

  const MessageCode(
    super.name, {
    super.pseudoSharedCode,
    super.severity,
    required this.problemMessage,
    this.correctionMessage,
    super.sharedCode,
  });

  @override
  Map<String, dynamic> get arguments => const <String, dynamic>{};

  @override
  Code get code => this;

  @override
  LocatedMessage withLocation(Uri uri, int charOffset, int length) {
    return new LocatedMessage(uri, charOffset, length, this);
  }

  @override
  LocatedMessage withoutLocation() {
    return new LocatedMessage(null, -1, noLength, this);
  }
}

class Template<TOld extends Function, T extends Function> extends Code {
  String get messageCode => name;

  final TOld withArgumentsOld;

  final T withArguments;

  const Template(
    super.name, {
    required this.withArgumentsOld,
    required this.withArguments,
    super.pseudoSharedCode,
    super.severity = CfeSeverity.error,
    super.sharedCode,
  });

  @override
  String toString() => 'Template($messageCode)';
}

class LocatedMessage implements Comparable<LocatedMessage> {
  final Uri? uri;

  final int charOffset;

  final int length;

  final Message messageObject;

  const LocatedMessage(
    this.uri,
    this.charOffset,
    this.length,
    this.messageObject,
  );

  Code get code => messageObject.code;

  String get problemMessage => messageObject.problemMessage;

  String? get correctionMessage => messageObject.correctionMessage;

  Map<String, dynamic> get arguments => messageObject.arguments;

  @override
  int compareTo(LocatedMessage other) {
    int result = "${uri}".compareTo("${other.uri}");
    if (result != 0) return result;
    result = charOffset.compareTo(other.charOffset);
    if (result != 0) return result;
    return problemMessage.compareTo(problemMessage);
  }

  FormattedMessage withFormatting(
    PlainAndColorizedString formatted,
    int line,
    int column,
    CfeSeverity severity,
    List<FormattedMessage>? relatedInformation, {
    List<Uri>? involvedFiles,
  }) {
    return new FormattedMessage(
      this,
      formatted.plain,
      formatted.colorized,
      line,
      column,
      severity,
      relatedInformation,
      involvedFiles: involvedFiles,
    );
  }

  @override
  int get hashCode =>
      13 * uri.hashCode +
      17 * charOffset.hashCode +
      19 * length.hashCode +
      23 * messageObject.hashCode;

  @override
  bool operator ==(Object other) {
    if (identical(this, other)) return true;
    return other is LocatedMessage &&
        uri == other.uri &&
        charOffset == other.charOffset &&
        length == other.length &&
        messageObject == other.messageObject;
  }

  @override
  String toString() =>
      'LocatedMessage(uri=$uri,charOffset=$charOffset,length=$length,'
      'messageObject=$messageObject)';
}

class PlainAndColorizedString {
  final String plain;
  final String colorized;

  @override
  String toString() {
    assert(false, "Called PlainAndColorizedString.toString: $plain");
    return 'PlainAndColorizedString:$plain';
  }

  const PlainAndColorizedString(this.plain, this.colorized);

  const PlainAndColorizedString.plainOnly(this.plain) : this.colorized = plain;
}

class FormattedMessage implements CfeDiagnosticMessage {
  final LocatedMessage locatedMessage;

  final String formattedPlain;

  final String formattedColorized;

  final int line;

  final int column;

  @override
  final CfeSeverity severity;

  final List<FormattedMessage>? relatedInformation;

  @override
  final List<Uri>? involvedFiles;

  const FormattedMessage(
    this.locatedMessage,
    this.formattedPlain,
    this.formattedColorized,
    this.line,
    this.column,
    this.severity,
    this.relatedInformation, {
    this.involvedFiles,
  });

  Code get code => locatedMessage.code;

  @override
  String get codeName => code.name;

  String get problemMessage => locatedMessage.problemMessage;

  String? get correctionMessage => locatedMessage.correctionMessage;

  Map<String, dynamic> get arguments => locatedMessage.arguments;

  Uri? get uri => locatedMessage.uri;

  int get charOffset => locatedMessage.charOffset;

  int get length => locatedMessage.length;

  @override
  Iterable<String> get ansiFormatted sync* {
    yield formattedColorized;
    if (relatedInformation != null) {
      for (FormattedMessage m in relatedInformation!) {
        yield m.formattedColorized;
      }
    }
  }

  @override
  Iterable<String> get plainTextFormatted sync* {
    yield formattedPlain;
    if (relatedInformation != null) {
      for (FormattedMessage m in relatedInformation!) {
        yield m.formattedPlain;
      }
    }
  }

  Map<String, Object?> toJson() {
    // This should be kept in sync with package:kernel/problems.md
    return <String, Object?>{
      "ansiFormatted": ansiFormatted.toList(),
      "plainTextFormatted": plainTextFormatted.toList(),
      "severity": severity.index,
      "uri": uri?.toString(),
      "involvedFiles": involvedFiles?.map((u) => u.toString()).toList(),
      "codeName": code.name,
    };
  }

  String toJsonString() {
    JsonEncoder encoder = new JsonEncoder.withIndent("  ");
    return encoder.convert(this);
  }
}

class DiagnosticMessageFromJson implements CfeDiagnosticMessage {
  @override
  final Iterable<String> ansiFormatted;

  @override
  final Iterable<String> plainTextFormatted;

  @override
  final CfeSeverity severity;

  final Uri? uri;

  @override
  final List<Uri>? involvedFiles;

  @override
  final String codeName;

  DiagnosticMessageFromJson(
    this.ansiFormatted,
    this.plainTextFormatted,
    this.severity,
    this.uri,
    this.involvedFiles,
    this.codeName,
  );

  factory DiagnosticMessageFromJson.fromJson(String jsonString) {
    Map<String, Object?> decoded = json.decode(jsonString);
    List<String> ansiFormatted = new List<String>.from(
      _asListOfString(decoded["ansiFormatted"]),
    );
    List<String> plainTextFormatted = _asListOfString(
      decoded["plainTextFormatted"],
    );
    CfeSeverity severity = CfeSeverity.values[decoded["severity"] as int];
    Uri? uri = decoded["uri"] == null
        ? null
        : Uri.parse(decoded["uri"] as String);
    List<Uri>? involvedFiles = decoded["involvedFiles"] == null
        ? null
        : _asListOfString(
            decoded["involvedFiles"],
          ).map((e) => Uri.parse(e)).toList();
    String codeName = decoded["codeName"] as String;

    return new DiagnosticMessageFromJson(
      ansiFormatted,
      plainTextFormatted,
      severity,
      uri,
      involvedFiles,
      codeName,
    );
  }

  Map<String, Object?> toJson() {
    // This should be kept in sync with package:kernel/problems.md
    return <String, Object?>{
      "ansiFormatted": ansiFormatted.toList(),
      "plainTextFormatted": plainTextFormatted.toList(),
      "severity": severity.index,
      "uri": uri?.toString(),
      "involvedFiles": involvedFiles?.map((u) => u.toString()).toList(),
      "codeName": codeName,
    };
  }

  String toJsonString() {
    JsonEncoder encoder = new JsonEncoder.withIndent("  ");
    return encoder.convert(this);
  }

  static List<String> _asListOfString(Object? value) {
    return (value as List<dynamic>).cast<String>();
  }
}

String? relativizeUri(Uri? uri) {
  // We have this method here for two reasons:
  //
  // 1. It allows us to implement #uri message argument without using it
  // (otherwise, we might get an `UNUSED_IMPORT` warning).
  //
  // 2. We can change `base` argument here if needed.
  return uri == null ? null : util.relativizeUri(Uri.base, uri, util.isWindows);
}

typedef SummaryTemplate = Message Function(int, int, num, num, num);

String itemizeNames(List<String> names) {
  StringBuffer buffer = new StringBuffer();
  for (int i = 0; i < names.length - 1; i++) {
    buffer.write(" - ");
    buffer.writeln(names[i]);
  }
  buffer.write(" - ");
  buffer.write(names.last);
  return "$buffer";
}

/// Convert the synthetic name of an implicit mixin application class
/// into a name suitable for user-faced strings.
///
/// For example, when compiling "class A extends S with M1, M2", the
/// two synthetic classes will be named "_A&S&M1" and "_A&S&M1&M2".
/// This function will return "S with M1" and "S with M1, M2", respectively.
String demangleMixinApplicationName(String name) {
  List<String> nameParts = name.split('&');
  if (nameParts.length < 2 || name == "&") return name;
  String demangledName = nameParts[1];
  for (int i = 2; i < nameParts.length; i++) {
    demangledName += (i == 2 ? " with " : ", ") + nameParts[i];
  }
  return demangledName;
}

final RegExp templateKey = new RegExp(r'#(\w+)');

/// Replaces occurrences of '#key' in [template], where 'key' is a key in
/// [arguments], with the corresponding values.
String applyArgumentsToTemplate(
  String template,
  Map<String, dynamic> arguments,
) {
  // TODO(johnniwinther): Remove `as dynamic` when unsound null safety is
  // no longer supported.
  if (arguments as dynamic == null || arguments.isEmpty) {
    assert(
      !template.contains(templateKey),
      'Message requires arguments, but none were provided.',
    );
    return template;
  }
  return template.replaceAllMapped(templateKey, (Match match) {
    String? key = match.group(1);
    Object? value = arguments[key];
    assert(value != null, "No value for '$key' found in $arguments");
    return value.toString();
  });
}
